TechBlog

Graphene enhanced plastics

Comparison of xGnP (graphene additive) to other nanocomposite additives.

Michigan state University is using the recent discovery that graphene is the strongest material ever and using graphene additives to make stiffer, stronger and lighter plastics.

The material – xGnP Exfoliated Graphite NanoPlatelets - can an either be used as an additive to plastics or by itself it can make a transformational change in the performance of many advanced electronic and energy devices,” Drzal said. “It can do so because it’s a nanoparticle with a unique shape made from environmentally benign carbon, and it can be made at a very reasonable cost.”

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The all new MEMS G50Z High Performance Single Axis Gyro is a MEMS Rate Sensor with both excellent bias over temperature and low noise. Designed for commercial stabilization and aircraft applications, the unit utilizes standard +5V DC power and has a voltage output. The -200 model features a +/- VSG compatible signal.

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The all new A30 MEMS High Performance Single Axis Accelerometer offers excellent bias with a small light weight form factor and low power. Designed for commercial stabilization and aircraft applications, the unit utilizes standard +5V DC power and has a voltage output.

• Low Cost & High Performance MEMS Single Axis Accelerometer
• Excellent Bias ? 1mg
• Bias Repeatability ? 2.5mg
• Axis Alignment <15mrad
• Low Power < 5 mA Typical
• Light Weight < 10 grams
• Low Voltage +5V (single sided power)
• Bandwidth 40Hz / 100Hz
• Voltage Output
• Reference Voltage
• Internal Temperature Sensor
• Self Test
• Shock Resistant 500g
• Long Life

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The all new LandMark20 MEMS GPS/AHRS is an ultra low power combined digital Attitude and Heading Reference System (AHRS) that provides internally temperature compensated RS485 output of delta velocity, delta theta, heading, pitch and roll angle and altitude information and a 16 channel C/A code GPS receiver with 10Hz position update rate.

A complete turnkey software development kit with advanced features including direct PC interface, data recording, bandwidth and output rate selection is also available.A complete turnkey software development kit with advanced features including direct PC interface, data recording, bandwidth, output rate selection and GPS is also available.

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The all new LandMark20 MEMS IMU is a silicon low noise digital Inertial Measurement Unit (IMU) that provides internally temperature compensated RS485 output of delta velocity and delta theta.
Features:

• Low Noise Silicon MEMS Digital IMU
• Low Gyro Noise 0.028º/sec/?Hz
• Fully Temperature Compensated Bias and Scale Factor
• Compensated G-Sensitivity and Misalignment
• In Run Gyro Bias 6° to 60°/hour typical
• Low Power < 1/2 watt typical
• Light Weight 113 grams
• Small Size < 67.5cm3/4.1in3
• Low Voltage +3.0 to 4.2V (single sided power)
• Bandwidth 100 Hz (user selectable)
• RS485 Output 200 Hz (user selectable)
• Bandwidth Filtering Capability
• Vibration Isolation
• Precision Alignment
• 3 Internal Temp. Sensors
• Self Test
• Shock Resistant
• Long Life
• Export Classification: Commerce ECCN7A994 Pending

The LandMark20 IMU is ideal for applications requiring improved performance MEMS gyros, but also needing ultra low power consumption, small size, light weight and no inherent wear out modes for long life. The signature feature of the LandMark20 IMU is the improved gyro performance. The low noise gyros enable precision measurement and improved in-run and bias over temperature. The IMU’s performance is optimized with fully temperature compensated bias and scale factor and compensated misalighnment and g-sensitivity. The rate outputs are free from bias steps and linear outputs are without acceleration hysteresis. The unit is highly durable and can withstand environmental vibration and shock typically associated with commerical aircraft requirements.

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Microcantilever actuators made from carbon nanotube (CNT)-polymer composites could dramatically improve the performance of microelectromechanical systems, according to scientists in Taiwan. The researchers from National Tsing Hua University have developed an easy to actuate material that rapidly suppresses unwanted oscillations thanks to a low quality factor.

“Lightweight and highly flexible CNT-composites provide fast electrothermo-actuation at low power,” Weileun Fang told nanotechweb.org. “Moving the actuator from its original position to its pull-in position can be employed to define two different states such as 0/1 or on/off, which suits many applications in communications and displays.”

The group’s nanocomposite device has a pull-in voltage of just 50?V for a full deflection of 560?µm. As Fang explains, this value is very low compared with existing microcantilevers, which can demand at least 500?V to achieve a similar displacement. The researchers believe that CNT-based field amplification is responsible for the low pull-in voltage.

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Continue reading ‘Coanda Effect Flying Saucer’ »

NASA’s solar-powered Helios experimental aircraft lifted off from a U.S. Navy base on the Hawaiian island of Kauai on Monday, reaching a height of 96,500 feet.